Abstract
Students with autism spectrum disorder (ASD) are included in general education classes and expected to participate in general education content, such as mathematics. Yet, little research explores academically-based mathematics instruction for this population. This single subject alternating treatment design study explored the effectiveness of concrete (physical objects that can be manipulated) and virtual (3-D objects from the Internet that can be manipulated) manipulatives to teach single- and double-digit subtraction skills. Participants in this study included three elementary-aged students (ages ranging from 6 to 10) diagnosed with ASD. Students were selected from a clinic-based setting, where all participants received medically necessary intensive services provided via one-to-one, trained therapists. Both forms of manipulatives successfully assisted students in accurately and independently solving subtraction problem. However, all three students demonstrated greater accuracy and faster independence with the virtual manipulatives as compared to the concrete manipulatives. Beyond correctly solving the subtraction problems, students were also able to generalize their learning of subtraction through concrete and virtual manipulatives to more real-world applications.
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References
Anohina, A. (2005). Analysis of the terminology used in the field of virtual learning. Journal of Educational Technology and Society, 8(3), 91–102.
Banda, D. R., Hart, S. L., & Liu-Gitz, L. (2010). Impact of training peers and children with autism on social skills during center time activities in inclusive classrooms. Research in Autism Spectrum Disorders, 4, 619–625. doi:10.1016/j.rasd.2009.12.005.
Barlow, D. H., & Hersen, M. (1984). Single case experimental designs (2nd ed.). New York: Pergamon Press.
Basil, C., & Reyes, S. (2003). Acquisition of literacy skills by children with severe disability. Child Language Teaching and Therapy, 19, 27–49. doi:10.1191/0265659003ct242oa.
Blum-Dimaya, A., Reeve, S. A., Reeve, K. F., & Hoch, H. (2010). Teaching children with autism spectrum disorders to play a video game using activity schedules and game-embedded simultaneous video modeling. Education & Treatment of Children, 33, 351–370. doi:10.1353/etc.0.0103.
Bosseler, A., & Massaro, D. W. (2003). Development and evaluation of a computer-animated tutor for vocabulary and language learning in children with autism. Journal of Autism and Developmental Disorders, 33, 653–672. doi:10.1023/B:JADD.0000006002.82367.4f.
Bouck, E. C., & Flanagan, S. M. (2010). Virtual manipulatives: What are they and how teachers can use them? Intervention in School and Clinic, 45, 186–191. doi:10.1177/1053451209349530.
Cass, M., Cates, D., Smith, M., & Jackson, C. (2003). Effects of manipulative instruction on solving area and perimeter problems by students with learning disabilities. Learning Disabilities Research & Practice, 18, 112–120. doi:10.1111/1540-5826.00067.
Chen, S. A., & Bernard-Opitz, V. (1993). Comparison of personal and computer-assisted instruction for children with autism. Mental Retardation, 31, 368–376.
Cihak, D., Fahrenkrog, C., Ayres, K. M., & Smith, C. (2010). The use of video modeling via a video iPod and a system of least prompts to improve transitional behaviors for students with autism dpectrum disorders in thegeneral education classroom. Journal of Positive Behavior Interventions, 12, 103–115. doi:10.1177/1098300709332346.
Cihak, D. F., & Foust, J. L. (2008). Comparing number lines and touch points to teach addition facts to students with autism. Focus on Autism and Other Developmental Disabilities, 23, 131–137. doi:10.1177/1088357608318950.
Cihak, D. F., & Grim, J. (2008). Teaching students with autism spectrum disorder and moderate intellectual disabilities to use counting-on strategies to enhance independent purchasing skills. Research in Autism Spectrum Disorders, 2, 716–727. doi:10.1016/j.rasd.2008.02.006.
Clark, K., & Green, G. (2004). Comparison of two procedures for teaching dictated- word/symbol relations to learners with autism. Journal of Applied Behavior Analysis, 37, 503–507. doi:10.1901/jaba.2004.37-503.
Delano, M. (2007). Improving written language performance of adolescents with Asperger syndrome. Journal of Applied Behavior Analysis, 40, 345–351. doi:10.1901/jaba.2007.50-06.
Denny, P. J., & Test, D. W. (1995). Using the one-more-than technique to teach money counting to individuals with moderate mental retardation: A systematic replication. Education and Treatment of Children, 18, 422–432.
Doyle, P. M., Wolery, M., Ault, M. J., & Gast, D. L. (1988). System of least prompts: A literature review of procedural parameters. Journal of the Association for Persons with Severe Handicaps, 13(1), 28–40.
Ellis, M. W., & Berry, R. Q., I. I. I. (2005). The paradigm shift in mathematics education: Explanations and implications of reforming conceptions of teaching and learning. The Mathematics Educator, 15(1), 7–17.
Fletcher, D., Boon, R. T., & Cihak, D. F. (2010). Effects of the TOUCHMATH program compared to a number line strategy to teach addition facts to middle school students with moderate intellectual disabilities. Education and Training in Developmental Disabilities, 45, 449–458.
Hagopian, L. P., Kuhn, D. E., & Strother, G. E. (2009). Targeting social skills deficits in an adolescent with pervasive developmental disorder. Journal of Applied Behavior Analysis, 42, 907–911. doi:10.1901/jaba.2009.42-907.
Heimann, M., Nelson, K. E., Tjus, T., & Gillberg, C. (1995). Increasing reading and communication skills in children with autism through and interactive multimedia computer-program. Journal of Autism and Developmental Disorders, 25, 459–480. doi:10.1007/bf02178294.
Higgins, K., & Boone, R. (1996). Creating individualized computer-assisted instruction for students with autism using multimedia authoring software. Focus on Autism and Other Developmental Disabilities, 11, 69–78.
Huntington, D. J. (1995). Instruction in concrete, semi-concrete, and abstract representation as an aid to the solution of relational problems by adolescents with learning disabilities (Doctoral dissertation, University of Georgia, 1994). Dissertation Abstracts International, 56, 512.
Janzen, J. (1996). Understanding the nature of autism. San Antonio: Therapy Skill Builders.
Jordan, L., Miller, D. M., & Mercer, C. D. (1998). The effects of concrete to semiconcrete to abstract instruction in the acquisition and retention of fraction concepts and skills. Learning Disabilities: A Multidisciplinary Journal, 9, 115–122.
Kazdin, A. E. (1982). Single case research designs: Methods for clinical and applied settings. New York: Oxford University Press.
Kennedy, C. H. (2005). Single case designs for educational research. Boston: Allyn & Bacon.
Kinney, E. M., Vedora, J., & Stromer, R. (2003). Computer-presented video models to teach generative spelling to a child with an autism spectrum disorder. Journal of Positive Behavior Interventions, 5, 22–29. doi:10.1177/10983007030050010301.
Maccini, P., & Gagnon, J. C. (2000). Best practices for teaching mathematics to secondary students with special needs. Focus on Exceptional Children, 32(5), 1–22.
Maccini, P., & Hughes, C. A. (2000). Effects of a problem-solving strategy on the introductory algebra performance of secondary students with learning disabilities. Learning Disabilities Research & Practice, 15, 10–21.
Maccini, P., & Ruhl, K. L. (2000). Effects of a graduated instructional sequence on the algebraic subtraction of integers by secondary students with learning disabilities. Education and Treatment of Children, 23, 465–489.
Marsh, L. G., & Cooke, N. L. (1996). The effects of using manipulatives in teaching math problem solving to students with learning disabilities. Learning Disabilities Research and Practice, 11, 58–65.
Martinez, J., & Martinez, N. (Eds.). (2007). Teaching mathematics in elementary and middle school developing mathematical thinking. Upper Saddle River: Pearson Education.
Moore, M., & Calvert, S. (2000). Vocabulary acquisition for children with autism: Teacher or computer instruction. Journal of Autism and Developmental Disorders, 30, 359–362.
Moyer, P. S., Bolyard, J. J., & Spikell, M. A. (2002). What are virtual manipulatives? Teaching Children Mathematics, 8, 372–377.
Olive, M., de la Cruz, B., Davis, T., Chan, J., Lang, R., O’Reilly, M., et al. (2007). The effects of enhanced milieu teaching and a voice output communication aid on the requesting of three children with autism. Journal of Autism and Developmental Disorders, 37, 1505–1513. doi:10.1007/s10803-006-0243-6.
Pennington, R. C. (2010). Computer assisted instruction for teaching academic skills to students with autism spectrum disorders: A review of the literature. Focus on Autism and Other Developmental Disabilities, 24, 239–248. doi:10.1177/1088357610378291.
Pennington, R. C., Ault, M. J., Schuster, J. W., & Sanders, A. (2010). Using simultaneous prompting and computer-assisted instruction to teach story writing to students with autism. Assistive Technology Outcomes and Benefits, 7(1), 24–38. Retrieved from, http://www.atia.org/files/ATOBV7N1.pdf.
Peterson, S. K., Mercer, C. D., & O’Shea, L. (1988). Teaching learning disabled students place value using the concrete to abstract sequence. Learning Disabilities Research, 4(1), 52–56.
Petursdottir, A. I., & Carr, J. E. (2011). A review of recommendations for sequencing receptive and expressive language instruction. Journal of Applied Behavior Analysis, 44, 859–876. doi:10.1901/jaba.2011.44-859.
Plavnick, J. B., & Ferreri, S. J. (2011). Establishing verbal repertoires in children with autism using function-based video modeling. Journal of Applied Behavior Analysis, 44, 747–766. doi:10.1901/jaba.2011.44-747.
Prelock, P. A., Paul, R., & Allen, E. M. (2011). Evidence-based treatments in communication for children with autism spectrum disorders. In B. Reichow, P. Doehring, D. V. Cicchetti, & F. R. Volkmar (Eds.), Evidence-base treatments for children with autism (pp. 93–169). New York: Springer.
Rayner, C. (2011). Teaching students with autism to tie a shoelace knot using video prompting and backward chaining. Developmental Neurorehabilitation, 14, 339–347. doi:10.3109/17518423.2011.606508.
Reimer, K., & Moyer, P. S. (2005). Third-Graders learn about fractions using virtual manipulatives: A classroom study. Journal of Computers in Mathematics and Science Teaching, 24(1), 5–25.
Schepis, M., Reid, D., Behrmann, M., & Sutton, K. (1998). Increasing communicative interactions of young children with autism using a voice output communication aid and naturalistic teaching. Journal of Applied Behavior Analysis, 31, 561–578.
Schlosser, R., Blischak, D., Belfiore, P., Bartley, C., & Barnett, N. (1998). Effects of synthetic speech output and orthographic feedback on spelling in a student with autism: A preliminary study. Journal of Autism and Developmental Disorders, 28, 309–319.
Smith, B. R., Spooner, F., & Wood, C. L. (2013). Using embedded computer-assisted explicit instruction to teach science to students with autism spectrum disorder. Research in Autism Spectrum Disorders, 7, 433–443. http://dx.doi.org/10.1016/j.rasd.2012.10.010.
Suh, J., Moyer, P. S., & Heo, H. (2005). Examining technology uses in the classroom: Developing fraction sense using virtual manipulative concept tutorials. The Journal of Interactive Online Learning, 3(4), 1–21.
Thunberg, G., Ahlsen, E., & Sandberg, A. (2007). Children with autistic spectrum disorders and speech-generating devices: Communication in different activities at home. Clinical Linguistics & Phonetics, 21, 457–479. doi:10.1080/02699200701314963.
Trembath, D., Balandin, S., Togher, L., & Stancliffe, R. (2009). Peer mediated teaching and augmentative and alternative communication for preschool-aged children with autism. Journal of Intellectual and Developmental Disability, 34, 173–186. doi:10.1080/13668250902845210.
U.S. Department of Education. (2009). IDEA data. Retrieved from, https://www.ideadata.org/PartBReport.asp.
Victor, H., Little, S. G., & Akin-Little, A. (2011). Increasing social engaged time in children with autism spectrum disorders using video self-modeling. Journal of Evidence-Based Practices for Schools, 12(1), 105–124.
Wang, P. S., & Spillane, A. (2009). Evidence-based social skills interventions for children with autism: A meta-analysis. Education and Training in Developmental Disabilities, 44, 318–342.
Xue, M., Brimacombe, M., & Wagner, G. C. (2007). Prevalance of motor impairment in autism spectrum disorder. Brain & Development, 29, 565–570.
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This project was supported by a grant from the Office of Special Education Programs to the first and third authors (H325D090003).
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Bouck, E.C., Satsangi, R., Doughty, T.T. et al. Virtual and Concrete Manipulatives: A Comparison of Approaches for Solving Mathematics Problems for Students with Autism Spectrum Disorder. J Autism Dev Disord 44, 180–193 (2014). https://doi.org/10.1007/s10803-013-1863-2
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DOI: https://doi.org/10.1007/s10803-013-1863-2